Olfactory receptors on the cockroach antenna signal odour ON and odour OFF by excitation
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[1] E. A. Arbas,et al. Odor-modulated upwind flight of the sphinx moth, Manduca sexta L. , 1991, Journal of Comparative Physiology A.
[2] J. Atema. Chemical signals in the marine environment: dispersal, detection, and temporal signal analysis. , 1995, Proceedings of the National Academy of Sciences of the United States of America.
[3] Geier,et al. Influence of odour plume structure on upwind flight of mosquitoes towards hosts , 1999, The Journal of experimental biology.
[4] Armin Hinterwirth,et al. Olfactory receptor cells on the cockroach antennae: responses to the direction and rate of change in food odour concentration , 2004, The European journal of neuroscience.
[5] Marc J. Weissburg,et al. Spatial distribution of odors in simulated benthic boundary layer flows , 1994, Journal of Chemical Ecology.
[6] J. Boeckh,et al. Contribution of single unit analysis in insects to an understanding of olfactory function , 1987, Journal of Comparative Physiology A.
[7] P Duchamp-Viret,et al. Amplifying role of convergence in olfactory system a comparative study of receptor cell and second-order neuron sensitivities. , 1989, Journal of neurophysiology.
[8] P. Moore,et al. Chemical orientation to food by the crayfish Orconectes rusticus: influence of hydrodynamics , 1999, Animal Behaviour.
[9] T. R. Tobin,et al. Temporal coding of pheromone pulses and trains in Manduca sexta , 1992, Journal of Comparative Physiology A.
[10] J. Hildebrand,et al. Analysis of chemical signals by nervous systems. , 1995, Proceedings of the National Academy of Sciences of the United States of America.
[11] James H. Tumlinson,et al. Sex pheromone blend of Manduca sexta: responses of central olfactory interneurons to antennal stimulation in male moths , 1989 .
[12] E. Kramer,et al. Sensory basis of pheromone-mediated orientation in moths , 1990 .
[13] R. E.,et al. Temporal resolution of odour pulses by three types of pheromone receptor cells in Antheraea polyphemus , 2022 .
[14] H. Tichy,et al. Integration of temperature and olfactory information in cockroach antennal lobe glomeruli , 2000, Journal of Comparative Physiology A.
[15] F. Yokohari,et al. Classification of antennal olfactory receptors of the cockroach, Periplaneta americana L , 1991 .
[16] T. Baker,et al. Reiterative responses to single strands of odor promote sustained upwind flight and odor source location by moths. , 1994, Proceedings of the National Academy of Sciences of the United States of America.
[17] Patricia Duchamp-Viret,et al. Odor processing in the frog olfactory system , 1997, Progress in Neurobiology.
[18] M J Weissburg,et al. The fluid dynamical context of chemosensory behavior. , 2000, The Biological bulletin.
[19] Thomas C. Baker,et al. The effects of pheromone concentration on the flight behaviour of the oriental fruit moth, Grapholitha molesta , 1982 .
[20] A. Ludlow,et al. Guidance of flying male moths by wind‐borne sex pheromone , 1981 .
[21] Roland Selzer,et al. On the specificities of antennal olfactory receptor cells of Periplaneta americana , 1984 .
[22] Temporal resolution of odour pulses by three types of pheromone receptor cells inAntheraea polyphemus , 1989, Journal of Comparative Physiology A.
[23] J. Murlis,et al. Fine‐scale structure of odour plumes in relation to insect orientation to distant pheromone and other attractant sources , 1981 .
[24] John Murtis,et al. Odor Plumes and How Insects Use Them , 1992 .
[25] R. Erickson,et al. Stimulus coding in topographic and nontopographic afferent modalities: on the significance of the activity of individual sensory neurons. , 1968, Psychological review.
[26] Thomas C. Baker,et al. Field and laboratory electroantennographic measurements of pheromone plume structure correlated with oriental fruit moth behaviour , 1989 .
[27] Die Reaktionen olfaktorischer Neurone im Deutocerebrum von Insekten im Vergleich zu den Antwortmustern der Geruchssinneszellen , 1974, Journal of comparative physiology.
[28] Getz,et al. Temporal resolution of general odor pulses by olfactory sensory neurons in American cockroaches , 1997, The Journal of experimental biology.
[29] N. Vickers. Mechanisms of animal navigation in odor plumes. , 2000, The Biological bulletin.
[30] Hinrich Sass. Zur nervösen Codierung von Geruchsreizen beiPeriplaneta americana , 2004, Journal of comparative physiology.
[31] C. Derby,et al. Peripheral mechanisms of olfactory discrimination of complex mixtures by the spiny lobster: no cell types for mixtures but different contributions of the cells to the across neuron patterns , 1990, Brain Research.
[32] T. Baker. Pheromone-modulated movements of flying moths , 2022 .
[33] H. Sass. Olfactory receptors on the antenna ofPeriplaneta: Response constellations that encode food odors , 1978, Journal of comparative physiology.
[34] John R. Carlson,et al. Odor Coding in the Drosophila Antenna , 2001, Neuron.
[35] John G. Hildebrand,et al. Frequency coding by central olfactory neurons in the sphinx moth Manduca sexta , 1988 .
[36] D. G. Laing,et al. Quality and intensity of binary odor mixtures , 1984, Physiology & Behavior.
[37] Mark A. Willis,et al. Effects of intermittent and continuous pheromone stimulation on the flight behaviour of the oriental fruit moth, Grapholita molesta , 1984 .
[38] B. Hansson,et al. Chemical communication in heliothine moths , 1995, Journal of Comparative Physiology A.
[39] J. Hildebrand,et al. Olfactory information processing in the brain: encoding chemical and temporal features of odors. , 1996, Journal of neurobiology.
[40] Chemical communication in heliothine moths , 1991, Journal of Comparative Physiology A.
[41] C. Derby,et al. Mixture suppression in behavior: The antennular flick response in the spiny lobster towards binary odorant mixtures , 1991, Physiology & Behavior.
[42] J. Atema,et al. Spatial Information in the Three-Dimensional Fine Structure of an Aquatic Odor Plume. , 1991, The Biological bulletin.
[43] Ring T. Cardé,et al. Manoeuvres of female Brachymeria intermedia flying towards host‐related odours in a wind tunnel , 1997 .
[44] G. Corbière-Tichané,et al. Antennal thermal receptors of the cave beetle,Speophyes lucidulus Delar , 1983, Journal of comparative physiology.
[45] M. Weissburg,et al. Effects of Odor Flux and Pulse Rate on Chemosensory Tracking in Turbulent Odor Plumes by the Blue Crab, Callinectes sapidus , 2004, The Biological Bulletin.
[46] C. Derby,et al. Complex binding interactions between multicomponent mixtures and odorant receptors in the olfactory organ of the Caribbean spiny lobster Panulirus argus. , 1998, Chemical senses.
[47] R T Cardé,et al. Odour plumes and odour-mediated flight in insects. , 2007, Ciba Foundation symposium.
[48] R. Selzer. The processing of a complex food odor by antennal olfactory receptors ofPeriplaneta ameriana , 1981, Journal of comparative physiology.
[49] P. Shaw. Review of quantitative analyses of citrus essential oils , 1979 .
[50] D R Webster,et al. Fluid mechanics produces conflicting, constraints during olfactory navigation of blue crabs, Callinectes sapidus , 2002, Journal of Experimental Biology.
[51] D. Schaller,et al. Antennal sensory system of Periplaneta americana L. , 1978, Cell and Tissue Research.
[52] C. Pfaffmann. SPECIFICITY OF THE SWEET RECEPTORS OF THE SQUIRREL MONKEY , 1974 .
[53] R. Cardé,et al. Fine-scale structure of pheromone plumes modulates upwind orientation of flying moths , 1994, Nature.
[54] J Atema,et al. Eddy Chemotaxis and Odor Landscapes: Exploration of Nature With Animal Sensors. , 1996, The Biological bulletin.
[55] H. Mustaparta. Chemical information processing in the olfactory system of insects. , 1990, Physiological reviews.